Synergism of Holmium Orthovanadate/Phosphorus-Doped Carbon Nitride Nanocomposite: Nonenzymatic Electrochemical Detection of Hydrogen Peroxide.

Developing efficient and robust electrode materials for electrochemical sensors is critical for real-time analysis. In this paper, a hierarchical holmium vanadate/phosphorus-doped graphitic carbon nitride (HoVO/P-CN) nanocomposite is synthesized and used as an electrode material for electrochemical detection of hydrogen peroxide (HO). The HoVO/P-CN nanocomposite exhibits superior electrocatalytic activity at a peak potential of -0.412 V toward HO reduction in alkaline electrolytes while compared with other reported electrocatalysts. The HoVO/P-CN electrochemical platform operated under the optimized conditions shows excellent analytical performance for HO detection with a linear concentration range of 0.009-77.4 μM, a high sensitivity of 0.72 μA μM cm, and a low detection limit of 3.0 nΜ. Furthermore, the HoVO/P-CN-modified electrode exhibits high selectivity, remarkable stability, good repeatability, and satisfactory reproducibility in detecting HO. Its superior performance can be attributed to a large specific surface area, high conductivity, more active surface sites, unique structure, and synergistic action of HoVO and P-CN to benefit enhanced electrochemical activity. The proposed HoVO/P-CN electrochemical platform is effectively applied to ascertain the quantity of HO in food and biological samples. This work outlines a promising and effectual strategy for the sensitive electrochemical detection of HO in real-world samples.